UNIT 1:
Coulomb’s law-Electric field intensity due to point charge, Line charge
Electric field intensity due to sheet of charges-Superposition property
Coulomb’s law-Electric field intensity due to point charge, Line charge
Electric potential: Potential due to a point charge
Electric potential: Potential due to Line charge and dipole
Gradient of potential-Electric flux Density
Gauss Law and its applications
Divergence of Flux density
Poisson’s and Laplace Equations
UNIT 2:
Dielectrics-polarization- Method of Images
Dielectric Boundary Condition
Capacitance: Parallel plate, isolated sphere
Capacitance: Spherical shells, Coaxial Cylinder
Energy and Energy Density in a capacitor
Energy in the charged distribution
Current-Current Density-point form of ohms law
Continuity equation for current
Duality of current Density and Electric flux density
UNIT 3:
Magnetic Field Intensity and flux density
Magnetic Field Intensity due to current carrying wire
Magnetic Field Intensity due to current carrying wire
Lorentz’s force equation- force between two wires
Torque equation – Design Thinking Approach
UNIT 4:
Maxwell’s equation in Integral form for steady and time varying fields
Maxwell’s equation in Integral form for steady and time varying fields
Maxwell’s equation in Differential form for steady and time varying fields
Poynting vector and power flow
Poynting vector and power flow
Scalar and vector magnetic potential stokes theorem
Scalar and vector magnetic potential stokes theorem
UNIT 5:
Derivation of wave equation-uniform plane waves
Maxwell’s equation in phasor form
Wave equation in phasor form
Plane waves in free space and in homogenous material
Wave equation for a conducting medium
Plane waves in a lossy dielectrics
Wave equation for a conducting medium